I'm programming a N-bit non-restoring divider, but I faced a little problem.
I have an Operative Part (combinatorial) and a Control Part (Finite State Machine). The Control Part has a 2 processes FSM, 1 for updating the next state and 1 for the "state sequence".
update: process(clk_in, next_state) begin if rising_edge(clk_in) then current_state <= next_state; end if; end process;
And this is the second process:
control: process(current_state, start, S_in, counted) variable sub_tmp : STD_LOGIC := '0'; begin [...] sub <= sub_tmp; -- sub is an output signal of my entity that goes in the Operative Part case current_state is when idle => if start='1' then next_state <= init; else next_state <= idle; end if; when init => -- [...] next_state <= subtract; when subtract => en_A <= '1'; sub_tmp := '1'; next_state <= test; when test => -- shift en_Q <= '1'; if S_in='0' then sub_tmp := '1'; else sub_tmp := '0'; end if; if counted=N/2-1 then next_state <= finished; else next_state <= operation; end if; when operation => en_A <= '1'; next_state <= test; when finished => stop <= '1'; next_state <= idle; end case; end process;
As you can see, I need to change the value of the sub ONLY in 2 cases (subtract and test), while I don't have to change in the other cases.
The problem is that when I try to synthesize this code it turns out that sub_tmp is a LATCH, but I don't want a latch. I need to do something like this:
state 1 => set sub to '1' or '0' (depending on another input)
state 2 => do other operations (but sub must remain the value set before) and return to state 1 etc...
To clarify more: in certain states of my FSM (not all of them) I set the value of a variable (let's call it sub_tmp). In other states I don't change its value. Then let's say I have an output PIN called "sub_out". Now, independently of the variable value, I want to output its value to this pin (sub_out <= sub_tmp; or similar).
What am I missing?